DE2845298A1 - Ship ventilation system with temp. control - has air conditioning units, with own temp. control valve, fed with centrally heated, cooling water - Google Patents

Abstract

The ship ventilation system with temp. control uses central water heating and cooling plants, supplying individual air conditioning units via a common heat exchanger. Units meeting similar requirements are looped together. Each unit has a temp. sensor for a thermostat controlling a combination of inlet and bypass valve; with a signal connection to a central controller proportioning the flows through the heat exchanger. Where there are significantly differing simultaneous requirements, more than one heat exchanger may be fitted. Electronic equipment may be connected to the cooled water circuit alone.

Description

The invention concerns the cold and hot water supply for Ventilation systems on ships.

With the ventilation systems commonly used today On ships, there are decentralized air conditioning units for each room to be air-conditioned or for different room groups provided in which the air flow to be treated after passing a dust filter, depending on the requirements by the cooler or the heater of the devices, either cooled or is heated. "The coolers and heaters of all devices are from a centrally arranged cooling and heating system via separate Pipeline networks supplied. It therefore leads a supply line circuit from both the refrigeration and heating systems to the air conditioning units (4-pipe system). For "such isolated" pipeline networks, the same applies a lot of space and material (weight, costs) are required. Furthermore, since often only the heating is regulated, this results in Cooling is a considerable but sometimes useless expenditure of energy.

From DE-OS 1 604 205 an air conditioning system for a building is known which has only one central heater. Decentralized there is a refrigeration system with one per room next to the heater. Compressor, a condenser and an evaporator are provided. From the control center there is a feed and a discharge line for Hot water to each air conditioner; the cooling system is included in the circuit. The switchover or regulation is carried out using Three-way taps in each air conditioner and between groups with similar operating conditions. With this system, it is true managed with very little pipeline, but there in every room a cooling system must be installed, the whole system is for a ship far too expensive.

From the introduction to the description of DE-OS 1 778 032 can be found / that known air conditioners in which the heat exchange; chorus device The amount of air flowing through remains constant

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and the caloric output of the heat exchanger is brought about by regulating the amount of coolant or heating medium, have only one heat exchanger. This becomes over ^ control valves optionally supplied with coolant or heating medium. The system requires a 4-pipe system. DE-OS 1 778 032 itself relates to an air-volume-controlled air conditioning system for buildings with a central heater and a decentralized one Cooler. Air conditioning units or groups of air conditioning units are arranged decentrally in rooms. Every air conditioner or group of devices has a single heat exchanger. This is connected to the central supply through at least three lines connected, a coolant inlet, a heating medium inlet and common or separate return. The switchover takes place through shut-off valves in front of each exchanger. Similar to this system is a system from York Corporation, Pennsylvania.

The invention is based on the object of a ventilation system To create a system on ships that can get by with even fewer pipelines. The system should require little weight and space have to work energy-saving and the temperature of the Rooms should, if possible, be regulated according to local conditions can be. The task is solved by a ventilation system with decentralized air conditioning units each with only one heat exchanger and one central system, which is characterized in that one heat exchanger is provided, on the one hand with the refrigeration and heating system and on the other hand via a controlled by control devices Switching option is connected to the decentralized air conditioning units. Switching from heating to cooling mode or the other way round, valves controlled by control devices are provided centrally (Fig. 1). Are devices provided for operation require an hour's cooling, so can according to the invention a

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THINKING

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System by a second central heat exchanger (Fig. 2), which is supplied / supplemented by the refrigeration system. This second heat exchanger then hides a separate circuit / e.g. for the supply of these devices, and can also be switched to other circuits.

In different ship spaces there is a different one at the same time Heat or cold demand resulting from the external and internal climatic loads. While In the cooling and heating mode, these different loads are reduced by regulating the flow rate on the heat exchangers the air conditioning units balanced, for the boundary operation between heating and cooling, or for parallel operation, according to the invention the second heat exchanger for cooling operation can also be switched on. Ground for reasons of operational safety with larger systems anyway the different internal climatic conditions Loads according to several circuits to the decentralized air conditioning units are provided, so that by means of switching options can be heated and cooled at the same time according to these loads. Because of extensive standardization the hold z. B. for the crew as well as the same size and location of these rooms can be assumed It can be assumed that the heating and cooling requirements of each of these rooms are approximately the same, it can be assumed that the number of these Circuits remains relatively low.

The ventilation system according to the invention differs significantly from the known in that not cold and Hot water can be fed to the decentrally arranged air conditioning units in parallel (Fig. 3), but either cold or hot water as required Hot water through the same pipeline network. Compared to the pipeline systems, this means the well-known ventilation technology Systems a considerable saving, which, as mentioned at the beginning, are 4 or 3 pipe systems. The inventive

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The ventilation system has a 2-pipe system with a supply and a return line. So it will be opposite to that 4-pipe system approx. Half and compared to the 3-pipe system Approx. one third of the piping saved, which means considerable savings in terms of material and space and thus weight and costs means. In addition, there is a significant energy saving compared to those systems with a permanent Cooling work with regulated heating.

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Claims (1)

N ACK'3 £ * r?; \. Cr iT Modified cooling and heating system for ventilation systems on ships Patent claims: Ventilation system on ships with a centrally arranged cooling and heating system and with centrally arranged air conditioning units each with only one heat exchanger for heating and cooling as well as pipelines for cold and heat transfer media, characterized in that a central heat exchanger is provided which, on the one hand, with the cold - and heating system and on the other hand, is connected to the individual heat exchangers of the air conditioning units. Ventilation system according to claim 1, characterized in that air conditioning units with similar temperature control requirements are connected to the centrally located heat exchanger via a common pipeline circuit. Ventilation system according to Claims 1 and 2, characterized in that one of the simultaneously arising different termination requirements - e.g. B. heating rooms, cooling devices corresponding number of central heat exchangers is provided. Ventilation system according to one of Claims 1 to 3, characterized by a control device on the heat exchanger in the air conditioning unit, which is controlled by a temperature sensor in the room to be air-conditioned, ßoi itself changing temperature opens or closes the Vnnt.il 030018/0194 -. O - ORfGINAL INSPECTED of the control framework up to a specified level and, if necessary, indicates a corresponding impulse Actuators in the central heat exchanger for switching from stimulus to cooling mode or vice versa. 5. Ventilation system according to the preceding claims, characterized in that for device cooling a second heat exchanger is arranged centrally and supplies a special circuit. 6. Ventilation system according to the preceding claims, characterized in that in claim 5 described second heat exchanger, if necessary, parts of the system "for room air conditioning in addition or supplied exclusively with energy. 030018/0 194